Achieving Sublinear Complexity under Constant T in T-interval Dynamic Networks

Ruomu Hou, Irvan Jahja, Yucheng Sun, Jiyan Wu, Haifeng Yu
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Abstract

This paper considers standard T-interval dynamic networks, where the N nodes in the network proceed in lock-step rounds, and where the topology of the network can change arbitrarily from round to round, as determined by an adversary. The adversary promises that in every T consecutive rounds, the T (potentially different) topologies in those T rounds contain a common connected subgraph that spans all nodes. Within such a context, we propose novel algorithms for solving some fundamental distributed computing problems such as Count/Consensus/Max. Our algorithms are the first algorithms whose complexities do not contain an Ømega(N) term, under constant T values. Previous sublinear algorithms require significantly larger T values.
在T区间动态网络中实现常数T下的亚线性复杂度
本文考虑标准的t区间动态网络,其中网络中的N个节点以锁步轮次进行,并且网络的拓扑结构可以任意地从一轮到一轮地变化,这是由对手决定的。对手承诺,在每T个连续的回合中,这T个回合中的T个(可能不同的)拓扑包含一个跨越所有节点的公共连接子图。在这样的背景下,我们提出了新的算法来解决一些基本的分布式计算问题,如Count/Consensus/Max。我们的算法是在恒定T值下复杂度不包含Ømega(N)项的第一批算法。以前的次线性算法需要更大的T值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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